Vanuildo S. de Carvalho, Hermann Freire
Motivated by a recent experimental observation of a nodal liquid on both single crystals and thin films of Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$ by Chatterjee \emph{et al.} [Nature Physics \textbf{6}, 99 (2010)], we perform a field-theoretical renormalization group (RG) analysis of a two-dimensional model consisting of eight points located near the ``hot spots'' on the Fermi surface which are directly connected by spin density wave ordering wave vector. We derive RG equations up to two-loop order describing the flow of renormalized couplings, quasiparticle weight, several order-parameter response functions, and uniform spin and charge susceptibilities of the model. We find that while all the order-parameter susceptibilities investigated here become non-divergent at two loops, the quasiparticle weight vanishes in the low-energy limit, indicating a breakdown of Fermi liquid behavior at this RG level. Moreover, both uniform spin and charge susceptibilities become suppressed in the scaling limit which indicates gap openings in both spin and charge excitation spectra of the model. We argue that all these results consistently suggest that the low-energy state of this model may indeed satisfy some key conditions to be characterized as an insulating spin liquid, giving further support to a previous analysis based on a one-loop RG calculation for this model available in the literature.
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http://arxiv.org/abs/1304.6384
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